Multi-directional reciprocation apparatus, horse riding apparatus using the same, and horse riding method using the same

ABSTRACT

Disclosed are a multi-directional reciprocation apparatus, a horse riding apparatus using the same, and a horse riding method using the same, which enables a user seated on a saddle to move up, down, back, force, left, and right, so that even a user having physical weakness easily exercises.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a multi-directional reciprocationapparatus, a horse riding apparatus using the same, and a horse ridingmethod using the same, enabling a user seated on a saddle to move up,down, back, force, left, and right, so that even a user having physicalweakness can easily exercise.

2. Description of the Related Art

In general, horse riding is an exercise of whole body enjoyed by allpeople. Differently from other workouts, a user exercises in an uprightstate of a spine during the horse riding, so that the user can correctposture of the user. In addition, since the user is seated on a horsewhich is moving, the bowel function of the user can be improved.Particularly, the horse riding is effective in the constipation of womenor students or the prostate disease of men.

Accordingly, through the horse riding, the user can rightly correct theposture of the upper body of the user and have the flexible wrist. Inaddition, the mental concentration and the rhythm of a body can beenhanced. The spirometry of the user can be increased, and the pelvis ofthe user becomes stronger. In addition, the courage of the user can beraised. The balance and the flexibility of each part of the body can beenhanced, so that the body of the user can be rightly developed.

As described above, the horse riding is generally known in that the usercan obtain superior effects in the exercise on the whole body. For theenjoyment of the horse riding by the public, several simulation horseriding devices have been suggested, and the details thereof will bedescribed with reference to FIG. 1.

FIG. 1 is disclosed in Korean Paten Registration No. 10-0469645. Asshown in FIG. 1, a horse riding device according to the related artincludes a support 10 having no saddle, a transfer member 20 to move thesupport 10 back and forth, and a lifting member 30 to move the support10 up and down.

A saddle mounted on the support 10 is moved back, forth, up, and down bythe transfer member 20 and the lifting member 30, so that horse ridingcan be performed.

However, horse riding devices according to the related art havestructures to make left and right movement difficult. In particular, auser, such as a patient having physical weakness, may fall down duringthe horse riding. Accordingly, the horse riding devices may be dangerousin use.

Meanwhile, the above-described horse riding device according to therelated art is generally known and described in detail in the followingprior art document, and the details thereof will be omitted herein.

As a prior art, there is provided Korean Patent Registration No.10-0469645.

SUMMARY OF THE INVENTION

The present invention is made keeping in mind the problem occurring inthe related art, and an object of the present invention is to provide anapparatus and a method, which can perform left and right movement andallow even a weak user, such as a patient, to enjoy horse riding.

In order to accomplish the above object, there is provided amulti-directional reciprocating apparatus including a reciprocating unitcomprising a lifting member (30) and a transfer member (20) to move up,down, back, and forth a support (10), and a left-right moving unit (100)mounted on the support (10) to move left and right. The left-rightmoving unit (100) includes a pair of support plates (110) providedperpendicularly on the support (10), a plurality of rotational bars (B)having one sides rotatably mounted at support bars (F) fixed to thesupport plates (110) and opposite sides rotatably mounted at the support(10), and a left-right transfer unit (120) mounted at one side of thesupport plate (110) to move left and right the support plate (110).

In this case, each rotational bar (B) may include a housing (B1) havinga ring-shape hollow structure and receiving bearings (BRG) mounted atthe support bar (F) and a support frame, respectively, and a couplingbar (B2) mounted in the housing (B1).

In addition, the left-right transfer unit (120) may include a verticalplate (122) installed perpendicularly at one side of the support plate(110) to operate together with the support frame, a driving pulley (123)installed rotatably on one lateral surface of the vertical plate (122),a driven pulley (124) operating together with the driving pulley (123),a transfer bar (125) eccentrically mounted on one lateral surface of thedriven pulley (124), and a fixed bar (126) rotatably mounting a portionof the transfer bar (125) and fixed to the support (10).

Further, the multi-directional reciprocating apparatus may furtherinclude a left-right driving unit (130) to drive the driving pulley(123). The left-right driving unit (130) may include a first pulley(131) rotated by external power and mounted on an opposite lateralsurface of the vertical plate (122), and a second pulley (132) providedat one side of the first pulley (131) to operate together with the firstpulley (131) and directly coupled to the driving pulley (123).

Further, the multi-directional reciprocating apparatus may furtherinclude a power cable (134) coupled to the first pulley (131) to drivethe first pulley (131). The power cable (134) may be rotated by externalpower.

According to another aspect of the present invention, there is provideda horse riding apparatus (200) using the multi-directional reciprocatingapparatus. The horse riding apparatus (200) may include saddle supportmembers (210) mounted at both side ends of support plates (110) in adirection of a support (10) and allowing a saddle (S) to be mountedthereon, a support bar unit (BU) having one side mounted at the saddlesupport member (210) and an opposite side mounted at one side of thesupport frame of the multi-directional reciprocating apparatus, and asupport member (280) mounted in the support bar unit (BU) to support auser seated on the saddle (S).

In this case, the support bar unit (BU) may include rear support bars(220) rotatably and perpendicularly mounted at both sides of the saddlesupport member (210), a front support bar (240) perpendicularly mountedat one side of a support frame (1) of the multi-directionalreciprocating apparatus, and a horizontal support bar (230) to couplethe rear support bars (220) to the front support bar (240).

Further, the horizontal support bar (230) may be mounted vertically orhorizontally rotatably about the front support bar (240).

Further, the front support bar (240) may have a substantially C shapevertically provided, and both open side ends mounted on the supportframe (1), and the horizontal support bar (230) may have a substantiallyC shape, and both open side ends provided vertically rotatably about therear support bars (220), respectively. The horse riding apparatus mayfurther includes a pin member (250) mounted at a contact part betweenthe horizontal support bar (230) and the front support bar (240)horizontally to the front support bar (240) to allow the verticalrotation, and a hinge member (260) having one side mounted at the pinmember (250) and an opposite side mounted at the horizontal support bar(230) to allow the horizontal rotation.

In addition, according to still another aspect of the present invention,there is provided a horse riding method by the horse riding apparatus.The horse riding method includes allowing a user seated on a saddle (S)to put on a support member (280). In a state that the support member(280) is fixed to a horizontal support bar (230) or a rear support bar(220), the saddle (S) may be moved left and right by a multi-directionalreciprocating apparatus while being moved up, down, back, and forth by alifting member (30) and a transfer member (20) included in themulti-directional reciprocating apparatus.

The advantages and features of the present invention will be apparentlycomprehended by those skilled in the art based on the detaileddescription and accompanying drawings.

Before the detailed description, terminologies and words used in thespecification and the claims shall not be interpreted as commonly-useddictionary meanings, but shall be interpreted as to be relevant to thetechnical scope of the invention based on the fact that the inventor mayproperty define the concept of the terms to explain the invention inbest ways.

As described above, the present invention has effects of allowing theleft-right movement and providing the enjoyment of the more safety horseriding.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic view to explain a horse riding apparatus accordingto the related art.

FIG. 2 is a perspective view showing a multi-directional reciprocatingapparatus according to one embodiment of the present invention separatedfrom the horse riding apparatus according to the related art.

FIGS. 3A and 3B are enlarged views showing the multi-directionalreciprocating apparatus according to one embodiment of the presentinvention.

FIG. 4 is a partial perspective view showing a left-right transfer unitaccording to one embodiment of the present invention.

FIG. 5 is a schematic view showing power transmission procedures in apower transmission unit and a power cable according to one embodiment ofthe present invention.

FIG. 6 is a schematic view showing that power is transmitted through thepower cable according to one embodiment of the present invention.

FIG. 7 shows a perspective view and a partially enlarged view to explainthe horse riding apparatus according to one embodiment of the presentinvention.

DETAILED DESCRIPTION OF THE INVENTION

Hereinafter, an exemplary embodiment of the present invention will bedescribed with reference to accompanying drawings. The thickness of eachline or the size of each component shown in accompanying drawings may beexaggerated for the purpose of convenience or clarity.

In addition, the following terminologies are defined by takingconsideration into the functions of the terminologies used in thepresent invention, and may be varied depending on the intents of a useror a manager, or a custom. Therefore, the definition of theterminologies should be made based on contents throughout the wholespecification.

In addition, following embodiments are provided for the illustrativepurpose of components disclosed in claims of the present inventionwithout the scope of the present invention. The embodiments are includedin the technical spirit of the present invention throughout thespecification, and various modifications and equivalents thereof arewithin the scope of the accompanying claims of the present invention.

FIG. 2 is a perspective view showing a multi-directional reciprocatingapparatus according to one embodiment of the present invention separatedfrom the horse riding apparatus according to the related art. FIGS. 3Aand 3B are enlarged views showing the multi-directional reciprocatingapparatus according to one embodiment of the present invention. FIG. 4is a partial perspective view showing a left-right transfer unitaccording to one embodiment of the present invention. FIG. 5 is aschematic view showing power transmission procedures in a powertransmission unit and a power cable according to one embodiment of thepresent invention. FIG. 6 is a schematic view showing that power istransmitted through the power cable according to one embodiment of thepresent invention. FIG. 7 shows a perspective view and a partiallyenlarged view to explain the horse riding apparatus according to oneembodiment of the present invention.

Embodiment

The present invention includes a multi-directional reciprocatingapparatus movable left and right and a horsing riding apparatus 200using the same. Hereinafter, the multi-directional reciprocatingapparatus will be described with reference to accompanying drawings.

As shown in FIGS. 2 and 3, the multi-directional reciprocating apparatusaccording to the embodiment includes a reciprocating unit including alifting member 30 and a transfer member 20 to move up, down, back, andforth a support 10 and a left-right moving unit 100 mounted on thesupport 10 to move left and right.

In other words, the left-right moving unit 100 according to the presentinvention is mounted on the support 10 according to the related art, andthe support 10, the lifting member 30, and the transfer member 20according to the related art are disclosed in Korean Patent RegistrationNo. 10-0469645.

Meanwhile, the left-right moving unit 100 includes a pair of supportplates 110 provided perpendicularly to an upper portion of the support10, a rotational bar B mounted rotatably between the support plate 110and the support 10, and a left-right transfer unit 120 to move left andright the support plate 110.

In other words, the support plate 110 is transferred left and right bythe left-right transfer unit 120. The support plate 110 is supported bythe rotational bar B and transferred left and right like a swing motion.

In this case, as shown in FIGS. 3A and 3B, one side of the rotationalbar B is rotatably mounted on the support plate 110, and an oppositeside of the rotational bar B is rotatable mounted on a support bar Ffixed to the support 10. In other words, since the support 10 is fixed,the support bar F fixed to the support 10 is in the fixed state. In thiscase, since the rotational bar B is rotationally mounted between thesupport bar F and the support plate 10, the rotational bar B performs aswing motion. To this end, the rotation bar B includes a ring-shapehousing B1 to receive bearings BRG rotationally mounted on the supportbar F and the support plate 110, respectively. In this case, therotational bar B includes a coupling part B2 coupled between bothhousings B1 to perform the above-described swing motion.

Meanwhile, as shown in the drawings, the support bar F includes avertical part F1 fixed to the support 10 perpendicularly to the support10 and a horizontal part F2 bent in a horizontal direction from one sideof the vertical part F1 so that the bearing BRG is rotationally mountedon the support bar F. In this case, a pair of support bars F may bemounted on each support plate 110, and may include coupling units FS tocouple the support bars F interposed between the support plates 110.

Meanwhile, although the left-right transfer unit 120 may have variousstructures sufficient to be mounted at one side of the support plate 110to move left and right the support plate 110 as described above, theleft-right transfer unit 120 may include a vertical plate 122 mountedperpendicularly to one side of the support plate 110 to operate togetherwith a support frame 1 as shown in FIGS. 3A, 3B, and 4.

In this case, the left-right transfer unit 120 may include a drivingpulley 123 mounted rotatably on one side of the vertical plate 122, adriven pulley 124 operating together with the driving pulley 123, atransfer bar 125 eccentrically mounted on one lateral surface of thedriven pulley 124, and a fixed bar 126 rotatably mounting a portion ofthe transfer bar 125 and fixed to the support 10.

In other words, the vertical plate 122 operates together with thesupport plate 110. The support plate 110 moves left and right as thevertical plate 122 moves left and right.

To this end, the driven pulley 124 and the transfer bar 125eccentrically mounted at one side of the driven pulley 124 are provided,and the transfer bar 125 is fixed to the fixed bar 126 fixed to thesupport 10.

In other words, when the driven pulley 124 rotates by the driving pulley123, the transfer bar 125 eccentrically mounted on the driven pulley 124moves left and right. In this case, since the transfer bar 125 is fixedto the fixed bar 126, the vertical plate 122 moves left and right. Sincethe vertical plate 122 operates together with the support plate 110, thesupport plate 110 is finally transferred left and right.

Through the structure according to the present invention, a saddlemounted on the support plate 110 is transferred left and right.

Meanwhile, as described above, the vertical plate 122 operates togetherwith the support plate 110. To this end, as shown in drawings, ahorizontal plate 121 may be mounted horizontally to a bottom surface ofthe vertical plate 122 and fixed to the support plate 110.

In addition, the driven pulley 124 and the driving pulley 123 mayindirectly operate together through a belt as shown in drawings, and mayoperate together through direct coupling such as gear coupling asgenerally known to those skilled in the art.

As described above, the driven pulley 124 is rotated by the drivingpulley 123. Accordingly, a left-right driving unit 130 may be providedto drive the driving pulley 123.

The left-right driving unit 130 may have various structures sufficientto rotate the driving pulley 123. As shown in FIG. 4, the left-rightdriving unit 130 may include a first pulley 131 rotated by externalpower and mounted on an opposite lateral surface of the vertical plate122 and a second pulley 132 provided at one side of the first pulley 131to operate together with the first pulley 131 and directly coupled tothe driving pulley 123.

In other words, as shown in drawings, if the driving pulley 123 and thedriven pulley 124 are mounted at the left of the vertical plate 122 inthe drawings, the first pulley 131 may be mounted at the right of thevertical plate 122 in drawings.

In this case, the first pulley 131 may be rotated by external power asdescribed above, and the second pulley 132, which receives power fromthe first pulley 131, may receive power through the direct couplingscheme such as the gear coupling, or may receive power through theindirect coupling by a belt after the second pulley 132 is mounted atthe right of the vertical plate 122 and under the first pulley 131 inthe drawings.

Meanwhile, the second pulley 132 may be directly coupled to the drivingpulley 123 as described above. To this end, as shown in FIGS. 3A, 3B,and 4, the second pulley 132 and the driving pulley 123 are mounted toface each other while interposing the vertical plate 122 therebetween.In this case, the driving pulley 123 may have a radius different fromthat of the second pulley 132 to perform a deceleration.

As described above, the first pulley 131 is rotated by external power asdescribed above. The first pulley 131 may have various structuressufficient to be rotated by the external power. There may be provided apower cable 134 coupled to the first pulley 131 to drive the firstpulley 131.

The power cable 134 includes a flexible material, such as a wire, asshown in generally known to those skilled in the art to transfer arotational force. The power cable 134 is mounted inside an externalprotective member, such as a rubber hose, and rotated by external power.

The above-described power cable 134 is directly mounted on the firstpulley 131 to rotate the first pulley 131 by the rotation of the powercable 134.

Meanwhile, the external power may be used through various structures. Asshown in FIG. 5, a power source 170, such as an electric motor, and adeceleration part 180 coupled to the power source 170 to primarilyperform a deceleration operation may be provided.

In particular, in order to transmit power through the deceleration part180, the power transmission unit 160 may be included as shown in FIGS. 5and 6.

As shown in FIG. 5, the power transmission unit 160 includes a belt 163coupled to the deceleration part 180 to transmit power and a rotationalpulley 162 to rotate the power cable 134 while the belt 163 is mountedto transmit power.

In this case, as shown in drawings, the rotational pulley 162 may bemounted on a support bracket 161, and the support bracket 161 may bemounted in various places. Since the power cable 134 includes a flexiblematerial, there is no great limitation in selecting a mounting place ofthe support bracket 16.

As described above, power is transmitted from the power source 170 tothe driven pulley 124 through the power cable 134. In this case, therotational ratio is reduced to the ratio of 2:1 based on the powersource 170 and the driven pulley 124.

Hereinafter, a horse riding apparatus 200 using the multi-directionalreciprocating apparatus 100 according to the present invention will bedescribed with reference to FIG. 7.

The horse riding apparatus 200 may include saddle support members 210mounted at both side ends of the support plates 110 in a direction ofthe support 10 and allowing a saddle S (hereinafter, see FIG. 2) to bemounted thereon, a support bar unit BU having one side mounted at thesaddle support member 210 and an opposite side mounted at one side ofthe support frame 1 of the multi-directional reciprocating apparatus,and a support member 280 mounted in the support bar unit BU to support auser seated on the saddle S.

In other words, the left-right moving unit 100 according to the presentinvention is mounted on the support 10 according to the related art, andthe support 10, the lifting member 30, and the transfer member 20according to the related art are disclosed in Korean Patent RegistrationNo. 10-0469645.

In other words, the support 10 moves back, force, up, and down by thelifting member 30 and the transfer member 20 according to the relatedart, so that the saddle S mounted on the support plate 110 and thesaddle support 210 moves back, force, up, and down.

In this case, since the support plate 110 and the saddle support member210 move left and right by the multi-directional reciprocating apparatusaccording to the present invention, the saddle S may move in alldirection finally.

Meanwhile, a user is seated on the saddle S. If the user is a person,such as a patient having physical weakness, the user may fall down fromthe saddle S. Therefore, a support member 280 and a support bar unit BUare provided according to the present invention.

To this end, one side of the support bar unit B is mounted in the saddlesupport member 210 so that the support bar unit B move back, force,left, right, up, and down according to the movement of the saddlesupport member 210, and an opposite side of the support bar unit BU isfixed to the support frame 1.

As shown in drawings, the support frame 1 may be mounted at one side ofthe horse riding apparatus according to the related art, and themounting position of the support frame 1 is not limited.

Meanwhile, the support bar unit BU may have various structuressufficient to support the support member 280 as described above.However, as shown in drawings, the support bar unit BU may include rearsupport bars 220 rotatably and perpendicularly mounted at both sides ofthe saddle support member 210, a front support bar 240 perpendicularlymounted at one side of the support frame 1 of the multi-directionalreciprocating apparatus, and a horizontal support bar 230 to couple therear support bars 220 to the front support bar 240.

In other words, there are provided the rear support bars 220perpendicularly mounted at one side of the saddle support member 210 andthe front support bar 240 mounted perpendicularly to the support frame 1and spaced apart from the support frame 1 in a forward direction (at theright of FIG. 7).

In this case, the horizontal support bar 230 horizontally couples therear support bar 220 to the front support bar 240. The support member280 is fixed to one side of the horizontal support bar 230 or the rearsupport bar 220 to support the user so that the user does not fall downfrom the saddle S.

Meanwhile, the horizontal support bar 230 may be mounted vertically orhorizontally rotatably about the front support bar 240.

In addition, the rear support bars 220 may be rotatably mounted at bothsides of the saddle support member 210 as described above.

To this end, the rear support bars 220 may include a pair of supportbars 221 and 222 perpendicularly provided in a bar shape at both sidesof the saddle support member 210.

In addition, the front support bar 240 has a substantially C shapeperpendicularly provided as shown in FIG. 7, and both side ends of thefront support bar 240, which are open, may be mounted on the supportframe 1.

In this case, the support frame 1 may have various structures sufficientto have the multi-directional reciprocating apparatus and to be providedin a fixed state.

In addition, the horizontal support bar 230 has a substantially C shape,and both side ends of the horizontal support bar 230, which are open,are provided vertically rotatably about the rear support bars 220.

To this end, as shown in drawings, an end 231 of the horizontal supportbar 230 is mounted in the bearing BRG mounted at the rear support bar220 so that the horizontal support bar 230 is rotatable about the rearsupport bar 220.

In addition, contact parts between the horizontal support bar 23 and thefront support bar 240, that is, connection parts 230A and 240A oppositeside to open portions of the substantially C shape can perform amutually vertical motion or a mutually horizontal motion.

To this end, there is provided a pin member 250 horizontally mounted atthe connection part 240A of the front support bar 240 to allow the upand down rotation.

In addition, there is provided a hinge member 260 having one sidemounted at the pin member 250 and an opposite side mounted at theconnection part 230A of the horizontal support bar 230 to allowhorizontal rotation.

In addition, the pin member 250 and the hinge member 260 are mounted atthe front support bar 240 and the horizontal support bar 230,respectively, to allow the vertical rotation and the horizontalrotation.

In other words, as shown in FIG. 7, the pin member 250 includes pinfixing parts 252 mounted at the connection part 240A of the frontsupport bar 240 and a pin 251 interposed between the pin fixing parts252, so that the pin 251 is rotatable through the pin fixing parts 252.

In addition, the hinge member 260 includes a pair of fixing plates 261coupled to the pin 241 while being spaced apart from each other in aheight direction thereof, and a rotating part 262 interposed between thefixing plates 261 to rotate horizontally.

In other words, since the pin 251 vertically rotates, the hinge member260 mounted at the pin 251 vertically rotates, so that the horizontalsupport bar 230 vertically rotates about the pin member 250.

In addition, since the hinge member 260 is mounted at the pin 261 tohorizontally rotate left and right, the horizontal support bar 230 maynot only be horizontally rotated left and right, but also verticallyrotated.

As described above, according to the multi-direction reciprocatingapparatus of the present invention, since the movement is possible up,down, back, forth, left, and right, the vertical rotation and thehorizontal rotation is required as described above.

The back and forth movement can be covered by the up and down directionof the horizontal support bar 230.

Meanwhile, as shown in FIG. 3, the support member 280 may include asupport member body 281 put on by a user and a fixing string 282provided upward of the support member 281 so that the fixing string 282is locked with the horizontal support bar 230 or the rear support bar240.

In this case, the support member 280 may include a leg insertion part283 provided under the support member body 281 so that the leg of theuser can be inserted into the leg insertion part 283.

The user can be more safely seated on the saddle S by the support member280 according to the present invention.

Meanwhile, as shown in FIG. 7, the fixing string 282 may be provided onthe horizontal support bar 230. To this end, there may be provided alocking port 285 attached to one side of the fixing string 282 and alocking ring 284 mounted on the horizontal support bar 230 so that thelocking port 285 is coupled with the locking ring 284.

Hereinafter, a horse riding method of a user using the horse ridingapparatus 200 according to the present invention will be described.

First, the user seated on the saddle S puts on the support member 280.In this case, the support member 280 is in a fixed state to thehorizontal support bar 230 or the rear support bar 220.

In this case, while the saddle S moves left or right, themulti-directional reciprocating apparatus moves up, down, left, or rightby the lifting member 30 and the transfer member 20. Accordingly, theuser seated on the saddle S may move up, down, left, or right.

Although the present invention has been described in detail withreference to the embodiments, the embodiments are used only for thedetailed description of the present invention, and the present inventionis not limited thereto. It should be understood that numerous othermodifications and embodiments can be devised by those skilled in the artthat will fall within the spirit and scope of the principles of thisdisclosure.

More particularly, various variations and modifications are possible inthe component parts and/or arrangements of the subject combinationarrangement within the scope of the disclosure, the drawings and theappended claims. In addition to variations and modifications in thecomponent parts and/or arrangements, alternative uses will also beapparent to those skilled in the art. The detailed right scope of thepresent invention is defined by accompanying claims.

1. A multi-directional reciprocating apparatus comprising: areciprocating unit comprising a lifting member (30) and a transfermember (20) to move up, down, back, and forth a support (10); and aleft-right moving unit (100) mounted on the support (10) to move leftand right, wherein the left-right moving unit (100) comprises: a pair ofsupport plates (110) provided perpendicularly on the support (10); aplurality of rotational bars (B) having one sides rotatably mounted atsupport bars (F) fixed to the support plates (110) and opposite sidesrotatably mounted at the support (10); and a left-right transfer unit(120) mounted at one side of the support plate (110) to move left andright the support plate (110).
 2. The multi-directional reciprocatingapparatus of claim 1, wherein each rotational bar (B) comprises: ahousing (B1) having a ring-shape hollow structure and receiving bearings(BRG) mounted at the support bar (F) and a support frame, respectively;and a coupling bar (B2) mounted in the housing (B1).
 3. Themulti-directional reciprocating apparatus of claim 1, wherein theleft-right transfer unit (120) comprises: a vertical plate (122)installed perpendicularly at one side of the support plate (110) tooperate together with the support frame; a driving pulley (123)installed rotatably on one lateral surface of the vertical plate (122);a driven pulley (124) operating together with the driving pulley (123);a transfer bar (125) eccentrically mounted on one lateral surface of thedriven pulley (124); and a fixed bar (126) rotatably mounting a portionof the transfer bar (125) and fixed to the support (10).
 4. Themulti-directional reciprocating apparatus of claim 3, further comprisinga left-right driving unit (130) to drive the driving pulley (123),wherein the left-right driving unit (130) comprises: a first pulley(131) rotated by external power and mounted on an opposite lateralsurface of the vertical plate (122); and a second pulley (132) providedat one side of the first pulley (131) to operate together with the firstpulley (131) and directly coupled to the driving pulley (123).
 5. Themulti-directional reciprocating apparatus of claim 4, further comprisinga power cable (134) coupled to the first pulley (131) to drive the firstpulley (131), wherein the power cable (134) is rotated by externalpower.
 6. A horse riding apparatus (200) using a multi-directionalreciprocating apparatus according to claim 1, the horse riding apparatus(200) comprising: saddle support members (210) mounted at both side endsof support plates (110) in a direction of a support (10) and allowing asaddle (S) to be mounted thereon; a support bar unit (BU) having oneside mounted at the saddle support member (210) and an opposite sidemounted at one side of the support frame of the multi-directionalreciprocating apparatus; and a support member (280) mounted in thesupport bar unit (BU) to support a user seated on the saddle (S).
 7. Thehorse riding apparatus of claim 6, wherein the support bar unit (BU)comprises: rear support bars (220) rotatably and perpendicularly mountedat both sides of the saddle support member (210); a front support bar(240) perpendicularly mounted at one side of a support frame (1) of themulti-directional reciprocating apparatus; and a horizontal support bar(230) to couple the rear support bars (220) to the front support bar(240).
 8. The horse riding apparatus of claim 7, wherein the horizontalsupport bar (230) is mounted vertically or horizontally rotatably aboutthe front support bar (240).
 9. The horse riding apparatus of claim 8,wherein the front support bar (240) has a substantially C shapevertically provided, and both open side ends mounted on the supportframe (1), and the horizontal support bar (230) has a substantially Cshape, and both open side ends provided vertically rotatably about therear support bars (220), respectively, and wherein the horse ridingapparatus further comprises: a pin member (250) mounted at a contactpart between the horizontal support bar (230) and the front support bar(240) horizontally to the front support bar (240) to allow the verticalrotation; and a hinge member (260) having one side mounted at the pinmember (250) and an opposite side mounted at the horizontal support bar(230) to allow the horizontal rotation.
 10. A horse riding method by ahorse riding apparatus according to claim 6, the horse riding methodcomprising allowing a user seated on a saddle (S) to put on a supportmember (280), wherein, in a state that the support member (280) is fixedto a horizontal support bar (230) or a rear support bar (220), thesaddle (S) is moved left and right by a multi-directional reciprocatingapparatus while being moved up, down, back, and forth by a liftingmember (30) and a transfer member (20) included in the multi-directionalreciprocating apparatus.